Recent Imaging Results from SINGS G J Bendo

Recent Imaging Results from SINGS G. J. Bendo, R. C. Kennicutt, L. Armus, D. Calzetti, D. A. Dale, B. T. Draine, C. W. Engelbracht, K. D. Gordon, A. D. Grauer, G. Helou, D. J. Hollenbach, T. H. Jarrett, L. J. Kewley, C. Leitherer, A. Li, S. Malhotra, M. Meyer, E. Murphy, M. W. Regan, G. H. Rieke, M. J. Rieke, H. Roussel, K. Sheth, J. -D. T. Smith, M. D. Thornley, and F. Walter Abstract Newly Processed Data: M 51 The Spitzer Infrared Nearby Galaxy Survey (SINGS) is a comprehensive infrared imaging and spectroscopic survey of 75 nearby galaxies. One of the primary goals of SINGS is to compare star-formation rates derived from far-infrared emission with rates derived from other generally accepted star-formation indicators, specifically ultraviolet emission, Ha emission, and radio synchrotron emission. A related secondary goal is the search for other emission mechanisms, such as mid-infrared PAH emission, that may correlate with these star-formation indicators. Further study of these star-formation tracers will give us better understanding of the physical processes that link them all together. We present recent results from SINGS observations of NGC 7331 and M 81 that relate to this work, and we also show some of the IRAC and MIPS images recently obtained by SINGS. Recent Results: NGC 7331 These results appear in M. Regan et al. 2004 Ap. JS 154, 204. The images presented in the paper illustrate the qualitative correspondence between the many tracers of star formation in this galaxies. Ha and Paa recombination line emission, 5. 8 and 8. 0 mm PAH emission, dust emission from 24 to 850 mm, CO millimeter line emission, and HI 21 cm line emission are all found to trace similar star formation structures in the disk and in the central starburst ring. Meanwhile, the 3. 6 and 4. 5 mm bands function as good extinction-free tracers of the stellar mass. The figures do illustrate some of the problems with some tracers of star formation. For example, note the dust extinction seen on the right side of the inner ring in the Ha image. This demonstrates why the crosscalibration of star formation tracers is necessary. 3. 6 mm 4. 5 mm 24 mm The above figures are global maps of NGC 7331 in different wavebands. Note how the 5. 8 and 8. 0 mm PAH emission, the 24 – 160 mm dust emission, and the HI line emission all trace similar star formation structures in the disk, which suggests that PAH emission, dust emission, and atomic gas density are related. The above figures are images of the starburst ring in the center of NGC 7331 as seen in different wavebands. The Ha and Paa line emission, 8 mm PAH emission, 24 mm hot dust emission, 850 mm cold dust emission, and CO line emission all trace star formation in the ring, but the Ha emission is affected by the dust extinction (which can be seen in the V/3. 6 mm image). 70 mm Newly Processed Data: NGC 5033 8. 0 mm 5. 8 mm 160 mm M 51 is a famous pair of interacting galaxies. The 3. 6 and 4. 5 mm images of these galaxies trace the stars in these galaxies, the 5. 8 and 8. 0 mm images trace the PAH emission, and the 24 – 160 mm images trace the dust emission. Note how the PAH and dust emission are associated with similar star formation structures in the disk. Also note the tidal tail visible in the PAH emission from the dwarf galaxy. Newly Processed Data: NGC 4579 Recent Results: M 81 24 mm These results appear in K. Gordon et al. 2004 Ap. JS 154, 215. The paper qualitatively and quantitatively compared star formation tracers in M 81. In the nucleus, in selected HII regions in the arms, and in the interarm regions, star formation rates derived from ultraviolet and Ha data were found to be significantly lower than star formation rates derived from infrared fluxes. Three factors could have led to the mismatch: 1. The ultraviolet and Ha fluxes are affected by dust extinction. 2. Some of the dust emission may not be related to star formation activity, although the concentration of 160 mm emission in the spiral arms implies that even the cooler dust emission is associated with star formation. 3. The luminosity – SFR calibration factors applied in this paper are simply inappropriate for individual regions within a galaxy. The figure on the left shows images of M 81 in ultraviolet, Ha, infrared, and radio bands, all convolved to the resolution of the MIPS 160 mm band. All of these bands are considered tracers of star formation activity. Note that they all qualitatively trace similar star formation structures, particularly in the spiral arms, although the affects of dust extinction are still evident (note the region in the ellipse in the ultraviolet and 24 mm images). 24 mm 70 mm NGC 4579 is designated as a Seyfert/LINER. Unlike NGC 5033, a discontinuity can be seen between the nucleus and the spiral arms at 24 and 70 mm. 160 mm NGC 5033 is a late-type Seyfert galaxy. Note the strong dust emission from near the nucleus. Newly Processed Data: NGC 5866 70 mm 160 mm Newly Processed Data: IC 4710 Also note the radically different appearance of the R-band image, which traces starlight. The plots to the right compare UV/IR and Ha/IR colors to IR luminosities. As can be seen in the figures, these figures suggest that the ultraviolet and Ha star formation tracers measure lower star formation rates than infrared fluxes. 24 mm 160 mm 70 mm Although NGC 5866 is classified as an S 0, these images show the presence of a dust disk that is atypical for earlytype galaxies. 24 mm 160 mm 70 mm The disorganized star formation structure exhibited in IC 4710, an SBm galaxy, is typical of many late-type galaxies.